The sound of silence on dying coral reefs disorientates fish larvae
The sound of silence on dying coral reefs disorientates fish larvae You can hear the sound of former bustling coral reefs dying due to the impact of human activity, according to new research from the Universities of Essex and Exeter.
The sound of silence on dying coral reefs disorientates fish larvae You can hear the sound of former bustling coral reefs dying due to the impact of human activity, according to new research from the Universities of Essex and Exeter. Coral reefs are amongst the noisiest environments on our planet, and healthy reefs can be heard using underwater microphones from kilometres away. However, scientists have found that coral reefs impacted by human activity, such as overfishing, are much quieter than protected reefs, which can have a big impact on the fish and invertebrates which rely on the reefs for survival. Led by Dr Julius Piercy, from the University of Essex, the study involved taking acoustic recordings of coral reefs with different levels of protection around islands in the Philippines. The research found that the noise produced by the few remaining resident fish and crustaceans on unprotected reefs was only one third of the sound produced at bustling, healthy reef communities. This is particularly important to the larval stages of reef fish and invertebrates, which spend the first few days of their life away from reefs and use sound as an orientation cue to find their way back. With less sound being produced at impacted reefs, the distance over which larvae can detect habitat is ten times less, impacting on the replenishment of future generations needed to build up and maintain healthy population levels. “In an environment where underwater noise plays such an important role in the population dynamics of coral reefs, it is alarming to find such a large effect of human impact on the natural acoustic environment, Ø explained Dr Piercy. “This puts reef sound in the spotlight for the people who manage coral reef ecosystems on two counts. Firstly, that they might need to consider reef sound as an integral part of the design of marine protected area networks to ensure that there is sufficient recruitment of larvae within and between reserves and neighbouring reefs. Secondly, this study shows sound can be useful in monitoring the health of coral reefs. Ø With growing evidence demonstrating the direct impacts of man-made noise on aquatic life, these findings highlight additional indirect human impacts - such as overfishing and landscape development - on natural underwater sounds. MCS Senior Biodiversity Policy Officer, Dr Jean-Luc Solandt, agrees with the findings: “Previous research has shown the importance of noise in attracting young fish to coral reefs, where they are likely to be protected and survive. I’ve not long returned from some very noisy reefs in Musandam in Oman carrying our ReefCheck surveys. This picture (below, right) is the coral, pocillpora, it hosts millions of noisy ‘snapping shrimp’ that collectively create a noise like thousands and thousands of crisp packets being scrunched together!” Dr Steve Simpson, from Biosciences at the University of Exeter, added: “Taking sound recordings is a cheap, fast and objective way to get a broad idea of whether a reef is in a good condition or not. While it cannot replace detailed visual surveys conducted by snorkelers or divers, it gives a good account of the cryptic and nocturnal species missed in visual census, and quickly provides a general picture of the state of coral reefs without requiring time-consuming surveys and extensive training. Ø The researchers also found that reef sounds can be detected further away than predicted, increasing previous estimates of the likely detection zone for recruiting larvae and increasing the potential importance of reef sound in attracting new fish and crustaceans to coral reefs. The study highlights the need to further characterise reef soundscapes and identify acoustic cues that larvae tune into when seeking a suitable home. Dr Simpson said: “We still know very little about what sounds these animals are listening to and it is likely to be very different between species. Combined with recent findings that fish dislike the smell of impacted reefs (another homing cue used by the larvae), there is a real need to understand how human impacts can indirectly affect the success of future generations of reef organisms. Ø
Actions you can take
Help protect 40% of English seas
Let the government know they must protect our ocean and marine wildlife before it’s too late.